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Transcript
İ.Ü.Fen Fakültesi Fizik Bölümü
İngilizce Dersleri, Kısa İçerikleri, Dersi veren Öğretim Üyesi ile ilgili iletişim bilgileri.
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Physics I (4-2-0) / 7
Faculty of Science / Physics Department
I
Physics and Measurement, Motion in One Dimension, Vectors,
Motion in Two Dimensions, The Laws of Motion, Circular
Motion and Other Applications of Newton's Laws, Work and
Kinetic Energy, Potential Energy and Conservation of Energy,
Linear Momentum and Collisions, Rotation of a Rigid Object
About a Fixed Axis, Rolling Motion and Angular Momentum,
Static Equilibrium and Elasticity, Oscillatory Motion, The Law
of Gravity.
Doç. Dr. Latife Şahin Yalçın
NAME AND CONTACT
([email protected] / 15410)
INFORMATION OF
Faculty of Science, Physics Department, Nuclear Physics
PROFESSOR (EMAIL/ PHONE)
Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Analysis I (4-2-0) / 7
Faculty of Science / Physics Department
I
Introduction to axiomatic real numbers, integers, rational and
irrational numbers and their properties, induction, inequalities,
real numbers, arrays, functions of a single variable, limit,
continuity and uniform continuity. Introduction to axiomatic real
numbers, natural numbers, integers, rational numbers, induction
method, finite and infinite sets. Limited set of real numbers, open
set, closed set definition of accumulation point of the cluster, the
cluster's touch point, Bolzano-Weierstrass theorem. Sequences of
real numbers, limited series, convergent sequences and the limit
concept. Algebraic properties of convergent sequences, limits,
and ordering relation, compression theorem. Limit and algebraic
properties of infinite sequences, monotonous series, sub-series.
Cauchy sequence, sequence accumulation point, the definition of
the lower limit and upper limit. Real-valued functions of a single
real variable and algebraic operations, limited function,
monotone function, even and odd functions. The concept of limit
of functions, functions, arrays, in the determination of the limit,
the limit functions of algebraic operations. Functions
compression theorem, the composition of limit, right limit, left
limit. Functions with infinite limits, limits at infinity, Cauchy
criterion for the existence of the limit function. Functions of a
single real variable, continuity, discontinuity types. Continuous
functions of algebraic operations, continuity of composite
functions, Weierstrass theorem, Bolzano-Cauchy theorem.
Intermediate value theorem, monotonic relationship between
functions and continuous functions. Images to determine the
ranges under continuous functions, uniform continuity, Cantor's
theorem.
Yard.Doç. Dr. Şükrü Yalçınkaya
NAME AND CONTACT
([email protected] /15325)
INFORMATION OF
PROFESSOR (EMAIL/ PHONE) Faculty of Science, Mathematics Department, Geometry Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
Reading and Translation
in Science I (2-0-0) / 2
Faculty of Science / Physics Department
SEMESTER
I
CONTENT
This course offers the students of scientific studies an
intermediate level of English grammar, reading and speaking
skills. Present Tenses, Past Tenses, Perfect Tenses, Future
Tenses, Verb Patterns, Phrasal Verbs, Modals
NAME AND CONTACT
INFORMATION OF
PROFESSOR (EMAIL/ PHONE)
Gökçe Ünar
Department of Foreign Languages
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
Physics II (4-2-0) / 7
Faculty of Science / Physics Department
SEMESTER
II
CONTENT
Physics 2 course includes topics related to electricity and
magnetism: Electric Fields, Gauss’s Law, Electrical Potential,
Capacitance and Dielectrics, Current and Resistance, Direct
Current Circuit, Magnetic Fields, Magnetic Field Sources,
Faraday’s Law, Inductance, Alternating Current Circuit,
Electromagnetic Waves
NAME AND CONTACT
INFORMATION OF
PROFESSOR (EMAIL/ PHONE)
Doç. Dr. Latife Şahin Yalçın
([email protected] / 15410)
Faculty of Science, Physics Department, Nuclear Physics
Division
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Analysis II (4-2-0) / 7
Faculty of Science / Physics Department
II
Derivatives and applications, mean value theorem, Taylor's
approach, maximum-minimum theorem, infinite series of real
numbers, power series, the Riemann integral, integration
techniques and applications, the fundamental theorem of analysis
n n. Real-valued and the only real definition of derivative,
continuity and derivative relationship between the algebraic
operations Differentiability of functions, derivative of composite
functions. Exponential, logarithmic, trigonometric, inverse
trigonometric, hyperbolic and inverse hyperbolic functions,
definition, continuity and derivatives. Parametric derivative,
higher order derivatives, Leibnitz rule. The definition of the local
extremum point, Fermat's theorem, Rolle's theorem and the
geometric interpretation of the Lagrangian (mean value) theorem
and its geometric interpretation of the generalized mean value
theorem. The critical point, the absolute maximum and absolute
minimum, Darboux's theorem, L'Hospital's rule. I. derivative test,
II. derivative test, the high-order derivative test, asymptotes, and
graph drawing. Series of real numbers, convergence of the series,
algebraic operations and convergence of the series, geometric
series, arithmetic series. Comparison tests for convergence of
series with non-negative terms. Cauchy criterion for the
convergence of the series concentration, absolute convergent
series, Abel's Theorem, the Riemann series. Power series, Taylor
series, Theorems on the convergence of the Taylor series.
Definition and properties of indefinite integrals, change of
variable method, integration, integration of rational and irrational
functions. Binomial integral, integral of trigonometric functions.
Darboux and Riemann's definition of definite integrals and
equivalence of these definitions, integrationable continuous
monotone functions, integrable functions, algebraic operations.
Integral Calculus I. fundamental theorem of integral calculus II.
The fundamental theorem of Leibnitz formula, I. the mean value
theorem, II. mean value theorem, area and volume calculation.
Doç. Dr. Handan Yıldırım
NAME AND CONTACT
([email protected] /15323)
INFORMATION OF
PROFESSOR (EMAIL/ PHONE) Faculty of Science, Mathematics Department, Geometry Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
Reading and Translation
in Science II (2-0-0) / 2
Faculty of Science / Physics Department
SEMESTER
II
CONTENT
This course offers the students of scientific studies an
intermediate level of English grammar, reading and speaking
skills. Adjectives and Adverbs, The Passive, Gerunds and
Infinitives, Clauses, Conjuntions, Conditionals, Causatives
NAME AND CONTACT
INFORMATION OF
PROFESSOR (EMAIL/ PHONE)
Gökçe Ünar
Department of Foreign Languages
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Ordinary and Partial Differential Equations (4-2-0) / 7
Faculty of Science / Physics Department
III
First and higher order ordinary and partial differential equations.
Methods of solution, initial and boundary conditions. General
Properties of first order ordinary Differential Equations Basic
Concepts. Methods of solutions of ordirary differential equation
separation of Variables, Integration factor, Differential Equations
solvalble with respect to the derivative, to y and to x.
Bernouilli,Riccati, Clairaut and Lagrange Diferential equation.
Methods of Solutions of differential equation of higher order.
General Properties of Partial Differential equations. Initial-Value
Problem, Cauchy Problem, Solution Techniques, Method of
Separation of Variables, Finite Fourier Transform, Lagrange's
Method of Variation of constants, Sturm-Liouville Problem
Prof. Dr. Haşim Mutuş
NAME AND CONTACT
([email protected] / 15532)
INFORMATION OF
PROFESSOR (EMAIL/ PHONE) Faculty of Science, Physics Department, Mathematical Physics
Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Physics IV (4-2-0) / 8
Faculty of Science / Physics Department
IV
Theory of special relativity, Quantization of energy and the
particle nature of the electromagnetic waves, Classical model of
atoms, Sommerfeld model of atom, wave aspects of matter,
introduction to quantum mechanics. Physical Reality, Special
Theory of Relativity, Discontinuity of Energy, Classical Atom
Models, Summerfeld Atom Models, The Wave Properties of
Matter, Introduction to Quantum Mechanics
Doç. Dr. İ. Alper Dizdar
NAME AND CONTACT
([email protected] / 15272)
INFORMATION OF
Faculty of Science, Physics Department, High Energy and
PROFESSOR (EMAIL/ PHONE)
Plasma Physics Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Quantum Physics I (4-2-0) / 7
Faculty of Science / Physics Department
V
The mathematical tools of quantum mechanics, The potulates of
quantum mechanics, The simple problems in a one-dimension,
Harmonic Oscillator, The Heisenberg Uncertainty Principle, he
hydrogen atom. Experiments which is Classical Physics was
insufficient. One-particle wave function space, Dirac Notation,
Eigenvalue Equation. Properties of linear operators, unitary
operators, parity, and the projection operator. The Postulates of
Quantum Mechanics. Schrödinger wave equation, Probability
Interperation of Wave Function. An infinite potential well,
Square Well Potential (bound and free states), Potential Step.
Tunneling effect and its applications. Energy eigenvalues of the
Harmonic oscillator. Eigenfunctions of the Harmonic oscillator.
Hermite polynomials. Heisenberg uncertainty principle. Energy
eigenvalues of the hydrogen atom. Eigenfunctions of the
hydrogen atom. Laguerre polynomials.
Prof. Dr. Y. Gürkan Çelebi
NAME AND CONTACT
([email protected] / 15246)
INFORMATION OF
Faculty of Science, Physics Department, General Physics
PROFESSOR (EMAIL/ PHONE)
Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Quantum Physics II (4-2-0) / 7
Faculty of Science / Physics Department
VI
The algebra of angular momentum (and spin) operators,
determination of the different representations and of the
eigenvalues and spherical harmonics, addition of spins and
determination of Clebsch-Gordan coefficients; stating that
identical particles have symmetric / anti-symmetric
wavefunctions and that Pauli exclusion principle applies to
fermions, Fermi surface, band structure in solids; application of
time-independent perturbation theory in the non-degenerate and
degenerate cases and time-dependent perturbation theory to
various problems, finding the ground state wavefunction and its
energy approximately using the variational principle,
determination of the wavefunction and the energy eigenvalues
for the higher excited states by the WKB approximation, analysis
of quantum mechanical scattering. Dirac notation, Classical
definition of angular momentum, linear Hermitian operators for
angular momentum, commutation relations. Angular momentum
in spherical coordinates, eigenvalues and eigenvectors of L^2
and L_z operators, vector model. Orthogonality of spherical
harmonics, matrix representations of angular momentum
operators. Atoms in a magnetic field, Stern-Gerlach experiment,
S^2 and S_z eigenvalue equations, electron spin and Pauli spin
matrices. Total angular momentum, addition of two angular
momenta, two electron system, spin-orbit interaction. Total
angular momentum, addition of two angular momenta, two
electron system, spin-orbit interaction. Time-independent
perturbation theory, selection rules, variation method. Timedependent perturbation theory, perturbative calculation of
transition probabilities. Identical particles in quantum mechanics,
symmetrization principle, permutation operator. Pauli exclusion
principle, two electron systems, N-particle systems. Introduction
to relativistic quantum mechanics, Dirac equation.
Prof. Dr. Y. Gürkan Çelebi
NAME AND CONTACT
([email protected] / 15246)
INFORMATION OF
Faculty of Science, Physics Department, General Physics
PROFESSOR (EMAIL/ PHONE)
Division
CONTENT
COURSE NAME/ECTS Credits
FACULTY/ DEPARTMENT
SEMESTER
Thermodynamics and Statistical Mechanics I (4-2-0) / 7
Faculty of Science / Physics Department
VI
Introduction to Thermodynamics, improving equilibrium
Statistical Mechanics and solution methods. Thermodynamics
and Statistical Mechanics Approach. Basic concepts of
Thermodynamics. Principles of Thermodynamics and
Applications.
Phase
Transitions
and
Reactions.
Thermodynamical Potentials. Formulation of Statistical
Mechanics and Ensemble Theory. Microstate, phase space,
Liouville theorem, number of microstate. Microcanonical
ensemble and applications. Canonical ensemble and
applications. Grand Canonical ensemble and applications.
Prof. Dr. Y. Gürkan Çelebi
NAME AND CONTACT
([email protected] / 15246)
INFORMATION OF
Faculty of Science, Physics Department, General Physics
PROFESSOR (EMAIL/ PHONE)
Division
CONTENT
COURSE NAME/ECTS Credits
Elementary Particle Physics I (4-2-0) / 6
FACULTY/ DEPARTMENT
Faculty of Science / Physics Department
SEMESTER
VII
Properties of elementary particles, different types of
interacions, classification of particles, continuous and discrete
symmetries of fundamental interactions, Lagrange formulation,
local gauge invariance, symmetry breaking, field theory
examples and classical solutions. History of elementary
particles. Elementary particles and elementary interactions:
Strong, electromagnetic, weak and gravitational interactions.
Classification of particles: Leptons, mesons, baryons, quarks,
intermediate and anti- particles. Some examples of processes
and decays. Symmetry aspects of elementary interactions;
symmetries, groups and conservation laws. Concept of spin and
Isometric spin; parity, charm, CP violation, charge conjugation.
Lie groups, Lie algebra ve generators; Orthogonal groups,
SU(2) and SU(3) groups and their properties. Lagrangean
formalism in classical particle mechanics and relativistic field
theory, Feynman rules. Gauge theories, local gauge invariance,
Yang-Mills theory. Symmetry breaking, Higgs mechanism.
Introduction to field theories, quantum electrodynamics, Dirac
equation. Thirring model, some field theories; classical
solutions and their properties, solitons, instanton and meron
solutions.
Yard. Doç. Dr. Çağlar Doğan
NAME AND CONTACT
([email protected]
/ 15188)
INFORMATION OF
Faculty of Science, Physics Department, High Energy and
PROFESSOR (EMAIL/ PHONE)
Plasma Physics Division
CONTENT